RU2342974C1 - Three-stage dust-collecting system - Google Patents

Abstract

FIELD: motors and pumps.

SUBSTANCE: three-stage dust-collecting system includes dust-laden gas source connected with the distribution header, three dust-collecting plants and fan. The dust-collecting plants are represented with dust-collecting units installed at counter-current swirling flows of gas. Each dust-collecting unit includes cylindrical body with the tapered hopper, the upper tangential inlet nozzle, the lower inlet nozzle with inlet swirler and dust extracting beveled washer. This washer is installed along body axis and at the outer surface of the lower inlet nozzle. The dust-collecting system also includes axial outlet nozzle for the cleaned gas and axial dust discharge nozzle. The latter is installed in the bottom part of the hopper and provided with flood-gate. There is a flood gate installed in the bottom part of the dust collecting unit. Outlet nozzles of the dust-collecting unit are provided with chokes and connected with the upper inlet nozzles of the second and third dust connecting units and with the lower inlet nozzles of the second and third dust connecting units. The lower inlet nozzle of the first dust-collecting unit is linked with its upper inlet nozzle. The axial outlet cleaned gas nozzle is coupled with the lower inlet nozzle of the second dust-collecting unit, whereas the axial outlet cleaned gas nozzle of the second dust-collecting unit is linked with the lower inlet nozzle of the third dust-collecting unit. Suction nozzle of the fan is connected to the axial outlet cleaned gas nozzle of the third dust-collecting unit. Preferably, ratio of the first, second and third dust-collecting units diameters should be 1:(1.2-1.5):(2-3), respectively.

EFFECT: increased effectiveness of dust-collecting process and possibility of system three-mode operation depending on highly-disperse dust particles amounts in initial gas and required degree of cleaning.

2 cl, 1 dwg, 1 ex

Description

The invention relates to dust cleaning gas systems, including several dust collecting devices, and can find application in various industries - chemical, food, woodworking, construction and others.

A three-stage dust collection system is known, including a dusty gas source, an inertial apparatus with an eccentrically located central gas duct, cyclones, a dust collector and an exhaust fan (see the patent specification RU No. 2105612, 1998).

A disadvantage of the known system is that it does not allow to achieve a high degree of purification of a gas containing highly dispersed particles.

A two-stage dust collection system is known, including the first and second devices, each of which is made in the form of a dust collector on counter swirling gas flows and contains a cylindrical body with a conical hopper, with an upper tangential inlet pipe installed in the lower part of the body and interconnected in series with the input swirl and the second inlet with a dust cone and with an axial outlet, a dust outlet in the lower part of the hopper, equipped with a lock a thief, a fan, the suction pipe of which is connected to the axial outlet pipe of the first device, and the discharge pipe is connected to the tangential inlet pipe and to the inlet swirl of the second device by pipelines, while the dust outlet of the second device is connected by a third pipe to the inlet swirl of the first device (see the description of the invention to patent RU No. 2137528, 1999). The disadvantage of this system is that it does not allow to achieve a high degree of purification of a gas containing highly dispersed particles.

A three-stage dust cleaning system is known, containing a source of dusty gas, a dust precipitation chamber with a cylindrical housing, a cover having an opening on its axis, an axial inlet pipe, a cylindrical collector installed concentrically with the inlet pipe with windows in the upper part, in which the first cleaning stage is carried out. The inlet pipes of cyclones - dust collectors of the second stage, a dust discharge unit are connected to the windows, while the lower edge of the cylindrical collector is attached to the edges of the lid opening, the lower end of the inlet pipe is located in the cylindrical part of the housing, and each of the cyclones is equipped with a second cyclone - dust collector connected in series with it the third stage, placed in between the adjacent cyclones (see the description of the invention to patent RU No. 2022657, 1994).

A disadvantage of the known system is also that it does not allow to achieve a high degree of purification of a gas containing highly dispersed particles.

The objective of the invention is to increase the efficiency of the dust collection process and to ensure the possibility of the system in three modes depending on the amount of fine dust particles in the source gas and the required degree of purification.

The essence of the invention lies in the fact that a three-stage dust collection system containing a source of dusty gas connected to a distribution manifold having outlet pipes, three dust collecting apparatuses and a fan is characterized in that the dust collecting apparatuses are made in the form of dust collectors on counter swirling gas flows and each includes a cylindrical case with conical hopper, upper tangential inlet pipe, lower inlet pipe with inlet swirl, dust cone y located on the axis of the housing on the outer surface of the lower inlet, axial outlet of the purified gas pylevypusknoy axial conduit disposed in the lower part of the hopper and provided with a sluice gate, wherein the bottom of the reservoir is set sluice gate. The outlet pipes of the collector are connected to the upper inlets of the first, second and third dust collectors and to the lower inlets of the second and third dust collectors. The lower inlet pipe of the first dust collector is connected to its upper inlet pipe. The axial outlet of the purified gas is connected to the lower inlet of the second dust collector. The axial outlet of the purified gas of the second dust collector is connected to the lower inlet of the third dust collector, and the suction pipe of the fan is connected to the axial outlet of the purified gas of the third dust collector.

Preferably, the ratio of the diameters of the bodies of the first, second and third dust collectors is respectively 1: (1.2-1.5) :( 2-3). The indicated optimum ratio of the case diameters was obtained by the method of mathematical modeling and confirmed experimentally for the source gas of different composition and different gas load. This ratio of diameters is necessary for stable and uninterrupted operation of the system.

The proposed three-stage dust collection system provides the ability to work in three modes and allows you to effectively clean the gas containing both fine and coarse dust particles.

The invention is illustrated in the drawing, where figure 1 schematically shows the proposed three-stage dust cleaning system.

The three-stage dust cleaning system contains a source of dusty gas 1, a fan 2, a collector 3 with outlet pipes 4 and three dust collectors 5, 6 and 7 on counter-swirling gas flows, each of which is made in the form of a cylindrical body 8 with a conical hopper 9 for collecting dust, with an upper tangential inlet pipe 10, with an inlet swirler 11 located in the lower inlet pipe 12, equipped with a dust cone 13 located along the axis of the casing on the outer surface of the pipe 12, with an axial outlet pipe 14 cleaner gas, with an axial dust outlet 15 located in the lower part of the hopper 9, which is equipped with a lock gate 16. The system includes shutters 17-25 and a lock gate 25 installed in the lower part of the manifold 3.

The three-stage dust collector operates in three modes, depending on the number of working stages.

Work in the first mode.

The dusty stream from source 1 enters a three-stage dust collection system in three streams:

- through the open damper 22 through the inlet pipe 4 to the upper inlet pipe 10 of the third dust collector 7;

- through the open shutter 20 along the inlet pipe 4 to the upper inlet pipe 10 of the second dust collector 6;

- through the open shutters 18 and 23 into the upper pipe 10 and the lower inlet pipe 12, equipped with a swirler 11 and a dust cone 13, the first dust collector 5.

From the first dust collector 5, along the axial outlet pipe 14, the purified gas stream through the open damper 24 is directed to the inlet swirl 11 of the lower inlet pipe 12 of the second dust collector 6. Next, from the axial outlet pipe 14 of the second dust collector 6, the cleaned gas through the open damper 6 is fed to the inlet swirl 11 the inlet pipe 12 of the third dust collector 7, from where the stream of purified gas through the axial outlet pipe 14 enters the exhaust fan 2 and is released into the atmosphere.

Work in the second mode.

In the second mode, two stages work: the second dust collector 6 and the third dust collector 7. In this case, the dusty gas stream is supplied through the outlet pipe 4 through the open shutter 20 to the upper inlet pipe 10 of the second dust collector 6 and the lower inlet pipe 12 through the swirler 11 of the second dust collector 6. From the second dust collector 6 along the axial outlet pipe 14, the stream of purified gas through the open damper 25 is directed to the inlet swirler 11 of the lower inlet pipe 12 of the third dust collector 7. From the third dust collector 7, the cleaned sweat to the axial pipe 14 flows into the exhaust fan 2 and further discharged into the atmosphere.

Work in the third mode.

In the third mode, only the third dust collector 7 works, while the shutters 21 and 22 are open, and the first dust collector 5 and the second dust collector 6 are disabled. The stream of dusty gas is supplied to the dust collector 7 through the outlet pipe 4 to the upper inlet pipe 10 and to the inlet swirler 11 of the lower inlet pipe 12 of the third dust collector 7.

To prevent clogging of the collector 3, a lock gate 26 is installed in its lower part, which ensures timely discharge of accumulated dust.

The advantage of the presented three-stage dust collection system is that it can capture dust of both high and low dispersion, depending on which the number of working stages is selected.

During gas cleaning, containing highly dispersed dust particles, all three stages of cleaning are involved in the work - dust collectors 5-7 or only two stages - dust collectors 6 and 7.

In the case when coarse cleaning of large dust particles is carried out, only the third dust collector 7 works, while the dust collectors 5 and 6 are disabled.

When carrying out cleaning from fine dust particles, the efficiency of the dust collectors 6 and 7 increases due to the supply to the inlet swirlers 11 of their lower inlet nozzles of the gas stream that has passed the preliminary cleaning in the previous steps - in the dust collectors 5 and 6.

Example.

The proposed dust collection system was used in the production of calcium carbide in the capture of coke dust with its initial concentration in the gas at the inlet of the system 5, 6-7.3 g / m ³ , while the content of coke dust particles with a size of up to 15 μm reached 40%. Dust collectors were used, the case diameters of which were: the first - 800 mm, the second - 600 mm, the third - 200 mm, i.e. the ratio of the diameters of the cases was within 1: 1.3: 3. During the operation of three stages of cleaning at the outlet of the system, the dust concentration was not more than 0.19 g / m ³ , and the content of particles with a size of up to 15 μm was not more than 18%. When two stages were operated, the dust concentration at the outlet was not more than 0.8 g / m ² , and the content of particles with a size of up to 15 μm was not more than 28%.

In the dust collection system, taken as a prototype, the content of particles with a size of up to 15 microns at the exit from the system was 29%.

Thus, the proposed invention allows for high cleaning efficiency of a gas containing both fine particles and coarse particles.

Claims (2)

1. A three-stage dust collection system containing a source of dusty gas connected to a distribution manifold, three dust collecting devices and a fan, characterized in that the dust collecting devices are made in the form of dust collectors on counter swirling gas flows, each of which includes a cylindrical body with a conical hopper, the upper tangential inlet pipe, lower inlet pipe equipped with an inlet swirler, dust cone washer located along the axis of the housing on an external the surface of the lower inlet pipe, the axial outlet pipe of the cleaned gas, the axial dust pipe located in the lower part of the hopper and equipped with a lock gate, while a lock gate is installed in the lower part of the distribution manifold, the outlet pipes of the collector are provided with shutters and are connected to the upper inlet pipes of the first, second and a third dust collector and with lower inlet nozzles of the second and third dust collectors, the lower inlet nozzle of the first dust collector is connected to its upper inlet atrubkom axial purified gas outlet connected to the lower inlet of the second dust collector, the axial outlet of the purified gas dust collector connected to the second lower inlet of the third dust collector, a suction fan and a branch pipe connected to the axial outlet nozzle third purified gas dust collector. 2. The three-stage dust collection system according to claim 1, characterized in that the ratio of the diameters of the bodies of the first, second and third dust collectors is 1: (1.2-1.5) :( 2-3), respectively.